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Self-Assembly of Amphiphilic Cubes in Suspension
Yusei Kobayashi
, Arash Nikoubashman
Department of Mechanical Engineering
Research output
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peer-review
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Chemical Compounds
Cubic Crystal
76%
Colloid
65%
Suspension
54%
Shape
27%
Binding Energy
24%
Cubic Space Group
23%
Monte Carlo Method
14%
Superlattice
14%
Anisotropy
13%
Rod Like Crystal
13%
Size Distribution
12%
Sphere
11%
Molecular Dynamics
10%
Block Like Crystal
9%
Volume
8%
Purity
7%
Energy
6%
Mixture
6%
Engineering & Materials Science
Colloids
100%
Self assembly
91%
Binding energy
44%
Dimers
21%
Molecular dynamics
15%
Anisotropy
14%
Fractals
14%
Thermal energy
13%
Volume fraction
12%
Agglomeration
12%
Temperature
5%
Physics & Astronomy
self assembly
73%
colloids
68%
binding energy
23%
rejection
14%
thermal energy
14%
fractals
12%
dimers
12%
rods
11%
molecular dynamics
10%
anisotropy
8%
kinetics
8%
interactions
5%
simulation
5%
temperature
4%
Medicine & Life Sciences
Colloids
80%
Suspensions
61%
Fractals
18%
Anisotropy
15%
Molecular Dynamics Simulation
15%
Hot Temperature
10%
Kinetics
10%
Temperature
10%